import RPi.GPIO as GPIO
import time
 
channel =4 
data = []
j = 0
 
GPIO.setmode(GPIO.BCM)
 
time.sleep(1)
 
GPIO.setup(channel, GPIO.OUT)
GPIO.output(channel, GPIO.LOW)
time.sleep(0.02)
GPIO.output(channel, GPIO.HIGH)
GPIO.setup(channel, GPIO.IN)
 
while GPIO.input(channel) == GPIO.LOW:
  continue
while GPIO.input(channel) == GPIO.HIGH:
  continue
 
while j < 40:
  k = 0
  while GPIO.input(channel) == GPIO.LOW:
    continue
  while GPIO.input(channel) == GPIO.HIGH:
    k += 1
    if k > 100:
      break
  if k < 8:
    data.append(0)
  else:
    data.append(1)
 
  j += 1
 
print("sensor is working.")
print(data)
 
humidity_bit = data[0:8]
humidity_point_bit = data[8:16]
temperature_bit = data[16:24]
temperature_point_bit = data[24:32]
check_bit = data[32:40]
 
humidity = 0
humidity_point = 0
temperature = 0
temperature_point = 0
check = 0
 
for i in range(8):
  humidity += humidity_bit[i] * 2 ** (7-i)
  humidity_point += humidity_point_bit[i] * 2 ** (7-i)
  temperature += temperature_bit[i] * 2 ** (7-i)
  temperature_point += temperature_point_bit[i] * 2 ** (7-i)
  check += check_bit[i] * 2 ** (7-i)
 
tmp = humidity + humidity_point + temperature + temperature_point
 
if check == tmp:
  print("temperature :", temperature, "*C, humidity :", humidity, "%")
else:
  print("wrong")
  print("temperature :", temperature, "*C, humidity :", humidity, "% check :", check, ", tmp :", tmp)
 
GPIO.cleanup()